Geomorphological numerical modelling of woody dams in CAESAR-Lisflood

Wolstenholme, Josh; Skinner, Christopher; Milan, David; Parsons, Daniel

doi:10.5194/egusphere-egu21-9636

All Outputs (128)

Monitoring suspended sediment dynamics using MBES (2010)
Journal Article
Simmons, S. M., Parsons, D. R., Best, J. L., Orfeo, O., Lane, S. N., Kostaschuk, R., Hardy, R. J., West, G., Malzone, C., Marcus, J., & Pocwiardowski, P. (2010). Monitoring suspended sediment dynamics using MBES. Journal of Hydraulic Engineering, 136(1), 45 - 49. https://doi.org/10.1061/%28ASCE%29HY.1943-7900.0000110

Gravity-driven flow in a submarine channel bend: Direct field evidence of helical flow reversal (2010)
Journal Article
Parsons, D. R., Peakall, J., Aksu, A. E., Flood, R. D., Hiscott, R. N., Beşiktepe, Ş., & Mouland, D. (2010). Gravity-driven flow in a submarine channel bend: Direct field evidence of helical flow reversal. Geology, 38(12), 1063-1066. https://doi.org/10.1130/G31121.1

Submarine meandering channels are conduits that transport gravity-driven flows and sediments into the deep sea. Such channel systems form distributive networks across submarine fans, ultimately forming the largest sedimentary deposits on Earth. Despi... Read More about Gravity-driven flow in a submarine channel bend: Direct field evidence of helical flow reversal.

Response of river-dominated delta channel networks to permanent changes in river discharge (2010)
Journal Article
Edmonds, D., Slingerland, R., Best, J., Parsons, D., & Smith, N. (2010). Response of river-dominated delta channel networks to permanent changes in river discharge. Geophysical research letters, 37(12), 1-5. https://doi.org/10.1029/2010GL043269

Using numerical experiments, we investigate how river-dominated delta channel networks are likely to respond to changes in river discharge predicted to occur over the next century as a result of environmental change. Our results show for a change in... Read More about Response of river-dominated delta channel networks to permanent changes in river discharge.

A new methodology for the quantitative visualization of coherent flow structures in alluvial channels using multibeam echo-sounding (MBES) (2010)
Journal Article
Best, J., Simmons, S., Parsons, D., Oberg, K., Czuba, J., & Malzone, C. (2010). A new methodology for the quantitative visualization of coherent flow structures in alluvial channels using multibeam echo-sounding (MBES). Geophysical research letters, 37(6), Article ARTN L06405. https://doi.org/10.1029/2009gl041852

In order to investigate the interactions between turbulence and suspended sediment transport in natural aqueous environments, we ideally require a technique that allows simultaneous measurement of fluid velocity and sediment concentration for the who... Read More about A new methodology for the quantitative visualization of coherent flow structures in alluvial channels using multibeam echo-sounding (MBES).

Causes of rapid mixing at a junction of two large rivers: Río Paraná and Río Paraguay, Argentina (2008)
Journal Article
Lane, S. N., Parsons, D. R., Best, J. L., Orfeo, O., Kostaschuk, R. A., & Hardy, R. J. (2008). Causes of rapid mixing at a junction of two large rivers: Río Paraná and Río Paraguay, Argentina. Journal of Geophysical Research: Earth Surface, 113(F2), 0 - 0. https://doi.org/10.1029/2006jf000745

Airborne and satellite observations show that when large rivers join they can take hundreds of kilometers to mix completely but, on occasion, may mix very rapidly. Application of established semitheoretical analyses shows that long mixing lengths sho... Read More about Causes of rapid mixing at a junction of two large rivers: Río Paraná and Río Paraguay, Argentina.

The theoretical foundations and potential for large-eddy simulation (LES) in fluvial geomorphic and sedimentological research (2004)
Journal Article
Keylock, C., Hardy, R., Parsons, D., Ferguson, R., Lane, S., & Richards, K. (2005). The theoretical foundations and potential for large-eddy simulation (LES) in fluvial geomorphic and sedimentological research. Earth-Science Reviews, 71(3-4), 271-304. https://doi.org/10.1016/j.earscirev.2005.03.001

Large-eddy simulation (LES) is a method for resolving the time-dependent structure of high Reynolds number, turbulent flows. With LES it is possible to model and track the behaviour of coherent turbulent structures and study their effect on the flow... Read More about The theoretical foundations and potential for large-eddy simulation (LES) in fluvial geomorphic and sedimentological research.

I'll be dead by the time it happens: Children's Perceptions of Climate Change in the Mekong Delta, Vietnam
Presentation / Conference Contribution
Halstead, F., Parsons, D., Jones, L., & Hackney, C. (2020, May). I'll be dead by the time it happens: Children's Perceptions of Climate Change in the Mekong Delta, Vietnam. Paper presented at EGU General Assembly 2020 (European Geosciences Union), Sharing Geoscience Online

The Mekong Delta in Southern Vietnam is one of the most at risk places globally to the effects of climate change and sea level rise, specifically in terms of flooding. It is predicted to change drastically over the next 100 years, with additional hum... Read More about I'll be dead by the time it happens: Children's Perceptions of Climate Change in the Mekong Delta, Vietnam.

Geomorphological numerical modelling of woody dams in CAESAR-Lisflood
Presentation / Conference Contribution
Wolstenholme, J., Skinner, C., Milan, D., & Parsons, D. (2021, April). Geomorphological numerical modelling of woody dams in CAESAR-Lisflood. Poster presented at EGU General Assembly 2021 (European Geosciences Union), vEGU21: Gather Online

Natural flood management (NFM) promotes the sustainable enhancement of natural fluvial processes to reduce flooding (SEPA, 2015; Wilkinson et al., 2019), and is increasingly popular for use by community groups, contractors and governments (Kay et al.... Read More about Geomorphological numerical modelling of woody dams in CAESAR-Lisflood.